about
Similarity of satilite DNA properties in the order RodentiaTelomeric repeats of Tetrahymena malaccensis mitochondrial DNA: a multimodal distribution that fluctuates erratically during growth.Medium-sized tandem repeats represent an abundant component of the Drosophila virilis genome.Chromosome odds and ends.Tetris is a foldback transposon that provided the building blocks for an emerging satellite DNA of Drosophila virilisMolecular and cytogenetic analysis of the heterochromatin-euchromatin junction region of the Drosophila melanogaster X chromosome using cloned DNA sequences.Correlation between phosphorylated H1 histones and satellite DNAs in Drosophila virilisA method for fast database search for all k-nucleotide repeats.A repetitive DNA sequence associated with the centromeres of Chironomus pallidivittatus.Multiplicity of satellite DNA sequences in Drosophila melanogasterCloning of human satellite III DNA: different components are on different chromosomesThe highly variable pentameric repeats of the AT-rich germline limited DNA in Parascaris univalens are the telomeric repeats of somatic chromosomes.A Musca domestica satellite sequence detects individual polymorphic regions in insect genome.Macronuclear DNA of the hypotrichous ciliate Oxytricha fallax.The interactions of the separated strands of satellite DNAs with other DNAs: 1. Conditions for associations of the alpha-satellite of the guinea pig with heterologous double-stranded DNAsCleavage patterns of Drosophila melanogaster satellite DNA by restriction enzymesConformations of satellite DNAs.The sequence dependence of circular dichroism spectra of DNA duplexes.Drosophila heterochromatin protein 1 (HP1)/origin recognition complex (ORC) protein is associated with HP1 and ORC and functions in heterochromatin-induced silencing.The Drosophila GAGA transcription factor is associated with specific regions of heterochromatin throughout the cell cycleStructure and function of repetitive DNA in eukaryotes.Hawaiian Drosophila genomes: size variation and evolutionary expansions.Sequence analysis of bovine satellite I DNA (1.715 gm/cm3).Structure of 1.71 lb gm/cm(3) bovine satellite DNA: evolutionary relationship to satellite I.The organisation of the long range periodicity calf satellite DNA I variants as revealed by restriction enzyme analysisDuplication/deletion polymorphism 5' - to the human beta globin gene.Conservation of sequences in related genomes of Apodemus: constraints on the maintenance of satellite DNA sequences.Absence of cytosine methylation at C-C-G-G and G-C-G-C sites in the rDNA coding regions and intervening sequences of Drosophila and the rDNA of other insects.A simple method for the computation of first neighbour frequencies of DNAs from CD spectra.A possible structure for calf satellite DNA I.Characterization of distinct segments in mouse satellite DNA by restriction nucleases.Genetic analysis of the heterochromatin of chromosome 3 in Drosophila melanogaster. I. Products of compound-autosome detachment.Genetic Analysis of the Heterochromatin of Chromosome 3 in Drosophila Melanogaster. II. Vital Loci Identified through Ems MutagenesisChromatin-associated transcripts of tandemly repetitive DNA sequences revealed by RNA-FISH.Divergence, differential methylation and interspersion of melon satellite DNA sequences.Restriction enzyme analysis of satellite DNA components from the bovine genome.Variable rates of simple satellite gains across the Drosophila phylogeny.A Drosophila melanogaster hobo-white(+) vector mediates low frequency gene transfer in D. virilis with full interspecific white(+) complementation.
P2860
Q28776287-896ACD40-55B2-4802-8904-AD23BAE135F0Q30461892-C5FAD069-59A2-4498-8EEE-D8AC46331F66Q31143503-D7ECC36B-870D-4B50-8058-E45F6307846BQ33466401-7DBE8CF3-882B-4ED1-BFB1-18BE099A8EF4Q33836706-3FAB2577-98CD-49FF-970F-459BA33ABCF8Q33956841-35811DCE-109E-4857-ACD0-6CA10FD33571Q33962390-9AD5F67C-3524-422F-A93A-1B4AF35A55C5Q34896890-662431ED-2202-4360-A54B-5239E0F03144Q34979953-822F309D-275B-485D-AE6D-14968BDE0FC1Q35588564-1FCD8CBC-9EE4-4580-A807-C792320EF827Q35756358-E112EFBA-BD9A-491B-931C-B96604F0F5CEQ35763683-96353321-B5DA-4485-BDFE-BED6D8095550Q35914563-06A3B5DC-FC29-475F-A35C-2B9A2D1834FAQ35995596-B3FF2D57-1847-49D5-8B7F-D9A216867C87Q36178820-57815DB9-B5A3-469E-998A-2092FCD5E189Q36194794-3FEC1A2E-E1D3-42BE-87B8-D68897B67713Q36199862-16D00D69-CF98-4BAF-81EB-2988A06AF39EQ36212784-FC459541-363D-48AF-A54E-FD445FA5BABDQ37069355-E189802B-D5AB-4F35-8538-FFD8C3C18FF9Q37640008-85F75473-626C-46A1-B0F3-1EAC7AE76A83Q39501813-CB24D9F3-7DF7-4460-BBE1-ECDB3C4D0994Q40082961-6E253EF3-1DF1-45DD-88F7-1983DEADD79DQ40463673-76D06E16-32D0-4EAD-AD60-FBCC9EAC4CABQ40465666-03C6975C-7628-4142-BE3E-0169AA985429Q40482058-5ED3FEFC-E847-4C3A-8BD2-3AB3E1D9E0CBQ40500059-46F89EF6-BDF7-42F2-81DF-FC257E9592A3Q40502023-13D0F669-7F50-4C49-94B0-72E8A42D3D72Q40502298-D90D15DA-FB75-4827-B5FD-58D68BF10066Q40573411-8FCB2D34-EF34-4B8C-92D1-202483EB59E1Q40578409-1845C488-6328-4B82-B4CA-91784B95B453Q40756122-D34EB443-0D4F-4309-9928-A59694FA78D2Q41815319-34F651DA-B17C-477D-8461-B53A94C2B094Q41821932-97BA3D68-A9D2-407F-BF81-4262765882B3Q42774406-0FCD61BD-6B63-4776-86BC-CA5AE22BE04DQ43587320-8A49CCDB-FC52-434E-AC08-CC07CDD7D666Q44477480-8D98E509-2152-41F1-A1E8-57DBFB615125Q48512286-0B554E80-DB74-43C2-B894-A957F7460745Q52552769-874578DD-3A3B-42BF-AD14-202E66EDF6DB
P2860
description
1974 nî lūn-bûn
@nan
1974年の論文
@ja
1974年学术文章
@wuu
1974年学术文章
@zh
1974年学术文章
@zh-cn
1974年学术文章
@zh-hans
1974年学术文章
@zh-my
1974年学术文章
@zh-sg
1974年學術文章
@yue
1974年學術文章
@zh-hant
name
Satellite DNA sequences in Drosophila virilis.
@en
Satellite DNA sequences in Drosophila virilis.
@nl
type
label
Satellite DNA sequences in Drosophila virilis.
@en
Satellite DNA sequences in Drosophila virilis.
@nl
prefLabel
Satellite DNA sequences in Drosophila virilis.
@en
Satellite DNA sequences in Drosophila virilis.
@nl
P1476
Satellite DNA sequences in Drosophila virilis.
@en
P2093
P304
P356
10.1016/0022-2836(74)90321-0
P407
P577
1974-01-01T00:00:00Z